RU11417U1 - ASYNCHRONOUS BIROTATIVE TYPE CONTROL DEVICE - Google Patents

Abstract

A control device for a birotational induction motor, one of whose shafts, for example, the stator shaft, is connected to the load, and the other to a mechanical speed controller, characterized in that the mechanical speed controller of the rotor shaft is made in the form of a wind brake, which is a worm gear, the end of the worm shaft of which the wind impeller is located.

Description

The invention relates to the field of electrical engineering, in particular to the field of electric motors and may find application as brake brake control devices for biotic motors, (in double rotation drives).

Known adjustable stepless AC electric drive 1, comprising a main motor with a rotating rotor and a stator, an auxiliary motor, a mechanical speed controller, made in the form of two gear reducers and a variator with two disks and a roller between them, kinematically connected with a speed-controlled auxiliary motor equipped with a screw pair, and the gear wheel of one gearbox is mounted on the stator of the main electric motor, the gear wheel of another red Ktorov - on the rotor core of the motor, said pinion gears kinematically connected with variator discs, the roller is kinematically connected to the screw drive managed by the auxiliary motor speed. This device is selected for the prototype.

The disadvantage of the prototype is low efficiency, since regulation is based on data submitted in advance, which eliminates the flexible, efficient control of the motor in real use. Another disadvantage is the design complexity due to the introduction of gearboxes, a variator, a tachogenerator, etc., which reduces not only the efficiency, but also the reliability of the electric motor as a whole.

The task to which the claimed utility model is directed is to eliminate these drawbacks, namely, simplifying the design, improving reliability, providing a flexible, adaptive to the current conditions of the regulation of the speed of the electric motor.

The problem is solved in that in a device for controlling the speed of an electric motor containing a biotic motor, one of the shafts of which, for example, the stator shaft, is connected to the load, and the other with a mechanical speed controller, the mechanical speed controller of the shaft, such as a rotor, is made in the form a wind brake, which is a worm gear, at the end of the worm shaft of which there is a wind impeller. In FIG. 1 shows a diagram of a rotary engine with a wind brake.

The inventive electric motor comprises a housing 1, inside of which are located a rotor and a stator made with the possibility of simultaneous rotation of one and the other. The stator shaft 2 is connected to a load (not shown). The rotor shaft 3 is connected to the wind brake, which is a worm wheel 4 connected to the worm 5, on the shaft of which the wind impeller 6 is attached.

Birobative electric drive with a wind brake operates as follows. When the worm wheel 4 rotates at a certain number of revolutions of the worm shaft 5, braking occurs due to the wind impeller 6, which increases with increasing revolutions of the worm shaft 5. By selecting the gear ratio “worm wheel - worm and impeller area”, the torque value on the shaft 2 is set.

This method of controlling the rotation speed is applicable in low power drives (from 1 to 200 W) with a constant torque on the output shaft. The range of changes in the speed of rotation of the output shaft 2 by selecting braking modes from 0.2 to 0.9 P5 N. (rated speed)

USEFUL MODEL FORMULA

A control device for a birotational-type asynchronous motor, one of whose shafts, for example, the stator shaft, is connected to a nafueca, and the other to a mechanical speed controller, characterized in that the mechanical speed controller of the rotor shaft is made in the form of a wind brake, which is a worm gear, the end of the worm shaft of which the wind impeller is located.

1. Sources of information taken into account: USSR author's certificate No. 1274114 - prototype

Claims (1)

A control device for a birotational induction motor, one of whose shafts, for example, the stator shaft, is connected to the load, and the other to a mechanical speed controller, characterized in that the mechanical speed controller of the rotor shaft is made in the form of a wind brake, which is a worm gear, the end of the worm shaft of which the wind impeller is located.